Chemical proteomic profiling with photoaffinity labeling strategy identifies antimalarial targets of artemisinin

被引:0
|
作者
Peng Gao [1 ]
Jiayun Chen [1 ]
Peng Sun [1 ]
Jianyou Wang [2 ]
Huan Tang [1 ]
Fei Xia [1 ]
Liwei Gu [1 ]
Huimin Zhang [3 ]
Chen Wang [1 ]
Yin Kwan Wong [1 ]
Yinhua Zhu [1 ]
Chengchao Xu [1 ]
Jigang Wang [1 ,3 ,4 ]
机构
[1] Artemisinin Research Center,and Institute of Chinese Materia Medica,China Academy of Chinese Medical Sciences
[2] Pharmaceutical College,Henan University
[3] Shandong Academy of Chinese Medicine
[4] Department of Nephrology,Shenzhen Key Laboratory of Kidney Diseases,Shenzhen Clinical Research Centre for Geriatrics,Shenzhen People's Hospital,The First Affiliated Hospital,Southern University of Science and Technology
来源
ChineseChemicalLetters | 2023年 / 34卷 / 12期
基金
中国国家自然科学基金;
关键词
D O I
暂无
中图分类号
R531.3 [疟疾]; O657.3 [光化学分析法(光谱分析法)];
学科分类号
070302 ; 081704 ; 1002 ; 100201 ;
摘要
Present research on the antimalarial mechanisms of artemisinin(ART) is mainly focused on covalent drug binding targets alkylated by free radicals, while non-covalent binding targets have rarely been reported.Here, we developed a novel photoaffinity probe of ART to globally capture and identify the antimalarial target proteins of ART through chemical proteomics. The results demonstrated that ART can bind to parasite proteins by both covalent and non-covalent modification, and these may jointly contribute to the antimalarial effects. Our work enriches the research on the antimalarial targets of ART, and provides a new perspective for further exploring the antimalarial mechanism of ART.
引用
收藏
页码:486 / 491
页数:6
相关论文
共 29 条
  • [21] Comprehensive proteomic profiling identifies the androgen receptor axis and other signaling pathways as targets of microRNAs suppressed in metastatic prostate cancer
    C Coarfa
    W Fiskus
    V K Eedunuri
    K Rajapakshe
    C Foley
    S A Chew
    S S Shah
    C Geng
    J Shou
    J S Mohamed
    B W O'Malley
    N Mitsiades
    Oncogene, 2016, 35 : 2345 - 2356
  • [22] Comprehensive proteomic profiling identifies the androgen receptor axis and other signaling pathways as targets of microRNAs suppressed in metastatic prostate cancer
    Coarfa, C.
    Fiskus, W.
    Eedunuri, V. K.
    Rajapakshe, K.
    Foley, C.
    Chew, S. A.
    Shah, S. S.
    Geng, C.
    Shou, J.
    Mohamed, J. S.
    O'Malley, B. W.
    Mitsiades, N.
    ONCOGENE, 2016, 35 (18) : 2345 - 2356
  • [23] Proteomic Profiling Identifies Dysregulated Pathways in Small Cell Lung Cancer and Novel Therapeutic Targets Including PARP1
    Byers, Lauren Averett
    Wang, Jing
    Nilsson, Monique B.
    Fujimoto, Junya
    Saintigny, Pierre
    Yordy, John
    Giri, Uma
    Peyton, Michael
    Fan, You Hong
    Diao, Lixia
    Masrorpour, Fatemeh
    Shen, Li
    Liu, Wenbin
    Duchemann, Boris
    Tumula, Praveen
    Bhardwaj, Vikas
    Welsh, James
    Weber, Stephanie
    Glisson, Bonnie S.
    Kalhor, Neda
    Wistuba, Ignacio I.
    Girard, Luc
    Lippman, Scott M.
    Mills, Gordon B.
    Coombes, Kevin R.
    Weinstein, John N.
    Minna, John D.
    Heymach, John V.
    CANCER DISCOVERY, 2012, 2 (09) : 798 - 811
  • [24] Single-Cell Proteomic Profiling Identifies Combined AXL and JAK1 Inhibition as a Novel Therapeutic Strategy for Lung Cancer
    Taverna, Josephine A.
    Hung, Chia-Nung
    DeArmond, Daniel T.
    Chen, Meizhen
    Lin, Chun-Lin
    Osmulski, Pawel A.
    Gaczynska, Maria E.
    Wang, Chiou-Miin
    Lucio, Nicholas D.
    Chou, Chih-Wei
    Chen, Chun-Liang
    Nazarullah, Alia
    Lampkin, Shellye R.
    Qiu, Lianqun
    Bearss, David J.
    Warner, Steven
    Whatcott, Clifford J.
    Mouritsen, Lars
    Wade, Mark
    Weitman, Steven
    Mesa, Ruben A.
    Kirma, Nameer B.
    Chao, Wei-Ting
    Huang, Tim H-M
    CANCER RESEARCH, 2020, 80 (07) : 1551 - 1563
  • [25] A constitutional isomer selective chemical proteomic strategy for system-wide profiling of protein lysine 5-hydroxylation
    Sin, Yi-Cheng
    Park, Meeyeon
    Griffin, Timothy J.
    Yong, Jeongsik
    Chen, Yue
    CHEMICAL SCIENCE, 2024, 15 (44) : 18395 - 18404
  • [26] Selective Chemical Labeling Strategy for Oligonucleotides Determination: A First Application to Full-Range Profiling of Transfer RNA Modifications
    Zhang, Hui-Xia
    Qin, Jian-Feng
    Sun, Jian-Feng
    Pan, Yu
    Yan, Tong-Meng
    Wang, Cai-Yun
    Bai, Li-Ping
    Zhu, Guo-Yuan
    Jiang, Zhi-Hong
    Zhang, Wei
    ANALYTICAL CHEMISTRY, 2023, 95 (02) : 686 - 694
  • [27] Single-CpG resolution mapping of 5-hydroxymethylcytosine by chemical labeling and exonuclease digestion identifies evolutionarily unconserved CpGs as TET targets
    Aurélien A. Sérandour
    Stéphane Avner
    Elise A. Mahé
    Thierry Madigou
    Sylvain Guibert
    Michaël Weber
    Gilles Salbert
    Genome Biology, 17
  • [28] Single-CpG resolution mapping of 5-hydroxymethylcytosine by chemical labeling and exonuclease digestion identifies evolutionarily unconserved CpGs as TET targets
    Serandour, Aurelien A.
    Avner, Stephane
    Mahe, Elise A.
    Madigou, Thierry
    Guibert, Sylvain
    Weber, Michael
    Salbert, Gilles
    GENOME BIOLOGY, 2016, 17
  • [29] Chemical genetic strategy identifies histone deacetylase 1 (HDAC1) and HDAC2 as therapeutic targets in sickle cell disease
    Bradner, James E.
    Mak, Raymond
    Tanguturi, Shyam K.
    Mazitschek, Ralph
    Haggarty, Stephen J.
    Ross, Kenneth
    Chang, Cindy Y.
    Bosco, Jocelyn
    West, Nathan
    Morse, Elizabeth
    Lin, Katherine
    Shen, John Paul
    Kwiatkowski, Nicholas P.
    Gheldof, Nele
    Dekker, Job
    DeAngelo, Daniel J.
    Carr, Steven A.
    Schreiber, Stuart L.
    Golub, Todd R.
    Ebert, Benjamin L.
    PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2010, 107 (28) : 12617 - 12622
123